Werewolf Therapeutics Highlights Initial Safety and Efficacy Data from its Ongoing Phase 1 Clinical Trial Evaluating WTX-330 in Patients with Advanced or Metastatic Solid
Tumors or Non-Hodgkin Lymphoma

On June 25, 2024 Werewolf Therapeutics, Inc. (the "Company" or "Werewolf") (Nasdaq: HOWL), an innovative biopharmaceutical company pioneering the development of conditionally activated therapeutics engineered to stimulate the body’s immune system for the treatment of cancer, reported initial results from the Phase 1 clinical trial evaluating WTX-330, its conditionally activated interleukin-12 (IL-12) INDUKINE molecule, as monotherapy in patients with immunotherapy insensitive or resistant locally advanced or metastatic solid tumors or non-Hodgkin lymphoma (Press release, Werewolf Therapeutics, JUN 25, 2024, View Source [SID1234644535]).

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"Our focus at Werewolf is grounded in advancing a pipeline of next generation, transformative immuno-stimulatory medicines," said Daniel J. Hicklin, Ph.D., President and Chief Executive Officer of Werewolf. "These preliminary clinical data show promising tolerability and signals of efficacy of WTX-330 in heavily pretreated patients with late-stage solid tumors. We look forward to continued advancement of WTX-330 and further understanding the potential clinical benefit for this molecule."

IL-12 therapy holds tremendous promise for immune-resistant cancer patients but has been historically limited by severe toxicity, like many cytokines. Werewolf is developing a novel, conditionally activated IL-12, WTX-330, in order to overcome this key limitation with its systemically administered, tissue-targeted technology, optimizing its therapeutic index so that efficacious doses can be delivered for clinical impact.

As of the cutoff date of June 12, 2024, the study had dosed eleven patients in dose escalation with solid tumors relapsed or refractory to all standard of care therapies with at least one dose of WTX-330 across three dose escalation cohorts, 0.016 mg/kg (n=3), 0.024 mg/kg (n=3), or 0.032 mg/kg (n=5) and two patients in dose expansion at 0.024 mg/kg.

Preliminary results as of the cutoff date showed:


Greatly increased therapeutic window: Compared to previous IL-12 therapeutic strategies (recombinant human IL-12 (rhIL-12) at 500 ng/kg (maximum tolerated dose)), at the 0.024 mg/kg dose, WTX-330 demonstrated an approximately 23-fold higher systemic drug concentration of IL-12 prodrug delivered to patients in the outpatient setting, with low free IL-12 levels across all dose levels (<1.6% of prodrug exposure).


Encouraging signals of clinical activity: One patient with metastatic melanoma who had previously progressed on adjuvant pembrolizumab was treated with 0.024 mg/kg WTX-330 administered intravenously once every two weeks (IV Q2W) and achieved an unconfirmed partial response by Response Evaluation Criteria in Solid Tumors (RECIST) after eight weeks with no evidence of disease on biopsy and marked decreased uptake on positron emission tomography (PET) imaging. A confirmatory scan for this patient is pending. Two additional patients with microsatellite stable (MSS) colorectal cancer (CRC) were treated with 0.032 mg/kg WTX-330 IV Q2W and achieved RECIST stable disease, one for 24 weeks with evidence of tumor biomarker activity.


Robust activation of immune biomarkers: Evidence of increased antitumor CD8+ T and natural killer (NK) cell expansion and activation in on-treatment tumor biopsies and/or upregulation of tumor immune gene signatures were observed in the two MSS CRC patients with stable disease.


Emerging tolerability profile: All patients exhibited mild to moderate treatment-related toxicities (fever, chills, cytopenias) primarily associated with the first dose, with no Grade 4 or Grade 5 related adverse events. These were correlated with dose-dependent increases in peripheral IFN g and IP-10. Two patients experienced reversible dose-limiting toxicities (Grade 3 mucositis, Grade 3 aspartate aminotransferase (AST) increase) at the 0.032 mg/kg dose level, including the MSS CRC patient with prolonged stable disease who remained on therapy for over 6 months after resolution of the mucositis. A maximum tolerated dose has not been established.


Expanded Phase 1 program: The Company has opened two expansion arms evaluating 0.024 mg/kg of WTX-330. Eligible patients include those with immune checkpoint inhibitor (ICI)-sensitive solid tumors who demonstrate primary or secondary resistance to immunotherapy (Arm A) and patients with solid tumors or lymphoma for whom ICI blockade is not approved or indicated (Arm B). Two patients have been enrolled into the expansion arms to date and have received at least one dose of WTX-330.

"We believe this is the first time that clinical benefit using a full-potency, systemically delivered, IL-12 molecule has been observed at therapeutically relevant doses with fewer severe toxicity-related events in an outpatient setting," said Randi Isaacs, M.D., Chief Medical Officer of Werewolf. "We are encouraged by these early results and anticipate presenting further safety, biomarker, and antitumor activity from patients enrolled in expansion arms at a medical meeting in the fourth quarter of 2024."

About IL-12

Interleukin-12 (IL-12) is a cytokine well recognized as a promising antitumoral therapeutic agent due to its range of functions that include activation of natural killer (NK) cells, NK T and CD8+ T cells, promotion of dendritic cell (DC) antigen presentation, and production of IFN-Y. Native IL-12 is highly toxic, and all previous methods of administration of the molecule at potentially efficacious doses have resulted in unmanageable systemic toxicities or lack of efficacy. To leverage the potent therapeutic properties of IL-12, there is a need to develop locally active but systemically blocked IL-12-based treatment approaches.

About WTX-330

WTX-330 was designed to be a systemically dosed prodrug with the ability to deliver fully active IL-12 selectively into the tumor microenvironment via targeted intratumoral activation of the INDUKINE molecule, potentially broadening the therapeutic window and promoting local activation and immune response against the tumor.

Step Pharma announces US FDA clearance for a Phase I clinical trial in solid tumours with dencatistat (STP938)

On June 25, 2024 Step Pharma, the global leader in CTPS1 inhibition for targeted cancer treatment, reported that its lead asset dencatistat (STP938), a first-in-class selective CTPS1 inhibitor, has cleared an investigational new drug (IND) application by the US Food and Drug Administration (FDA), enabling Step Pharma to progress dencatistat into a Phase 1 clinical trial for patients with solid tumours, anticipated to start in Q3 2024 (Press release, Step Pharma, JUN 25, 2024, View Source [SID1234644534]).

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The open label trial will evaluate the safety, tolerability and pharmacokinetics of dencatistat in adults living with advanced solid tumours, with a safety expansion in advanced CTPS2 null ovarian cancer. Selecting patients whose tumours have deleted CTPS2 represents a precision oncology approach that is expected to maximise the therapeutic potential of dencatistat. The trial will recruit patients with advanced cancer who have no other treatment options available.

Step Pharma is pioneering a novel class of oral drugs that specifically inhibit nucleotide synthesis and the enzyme cytidine triphosphate synthase 1 (CTPS1) in particular, which was originally identified as an essential gene for lymphocyte proliferation. By targeting CTPS1, Step Pharma has unlocked the ability to selectively target the de novo pyrimidine synthesis pathway in cancer cells. This groundbreaking approach is predicted to enable the highly selective treatment of both blood cancers and solid tumours.

Andrew Parker, Chief Executive Officer of Step Pharma, commented:

"The approval by the US FDA to initiate clinical evaluation of dencatistat in solid tumours is a significant milestone for Step Pharma as we continue to advance our lead candidate beyond blood cancers and into solid tumours, bringing us a step closer to a potentially paradigm-shifting treatment for patients. We look forward to starting the study in Q3 2024 and continuing our progress in driving a step change in the way we treat cancer, making a real difference to patients’ lives."

Further details of the planned Phase 1 trial can be found on clinicaltrials.gov under the identifier NCT06297525.

Soligenix Announces Positive Clinical Results from a Comparative Study Evaluating HyBryte™ Against Valchlor® in the Treatment of Cutaneous T-Cell Lymphoma

On June 25, 2024 Soligenix, Inc. (Nasdaq: SNGX) (Soligenix or the Company), a late-stage biopharmaceutical company focused on developing and commercializing products to treat rare diseases where there is an unmet medical need, reported positive clinical results from a comparability study evaluating HyBryte (synthetic hypericin) versus Valchlor (mechlorethamine gel) in the treatment of cutaneous T-cell lymphoma (CTCL) (Press release, Soligenix, JUN 25, 2024, View Source [SID1234644533]). The open-label study (protocol HPN-CTCL-04) enrolled 10 patients (5 patients per group) with treatment success defined as a ≥50% improvement in a patient’s cumulative mCAILS (modified Composite Assessment of Index Lesion Severity) score after 12 weeks of topical treatment compared to Baseline. The study revealed that HyBryte treatment resulted in 60% of patients achieving a 50% or better improvement in their mCAILS score versus 20% of Valchlor patients, with HyBryte having a more favorable safety profile. All subjects were enrolled by Brian Poligone, MD, PhD, at the Rochester Skin Lymphoma Medical Group, Fairport, NY.

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"Following the positive results from the previous Phase 2 and 3 studies where I previously participated in evaluating HyBryte, we were excited to support Soligenix’s effort to conduct a prospective comparative assessment of HyBryte versus Valchlor," stated Dr. Brian Poligone, Director of the Rochester Skin Lymphoma Medical Group and Principal Investigator for the comparability study. "Despite the small study sample size and a randomization that lead to the HyBryte group having patients with more extensive disease, HyBryte performed well and the results are consistent with previous studies demonstrating its rapid onset of action and benign safety profile compared to one of the most widely prescribed approved drugs for early-stage CTCL. The positive effect this therapy can have for patients and the outstanding safety profile that HyBryte continues to demonstrate is very encouraging. We look forward to continuing to support Soligenix and participating in the upcoming Phase 3 placebo-controlled study."

"These results support the positive HyBryte data from the previously completed Phase 3 FLASH study and demonstrates that a relatively short treatment period with the drug can result in clinically meaningful outcomes," stated Christopher J. Schaber, PhD, President and Chief Executive Officer of Soligenix. "This relatively rapid response to HyBryte therapy fits nicely into the treatment arsenal for CTCL and reinforces the relative safety of HyBryte in these patients compared to other therapies currently in use. We look forward to continuing to work with Dr. Poligone and all of our committed clinical investigators to initiate the confirmatory Phase 3 replication study (FLASH2) later this year."

The purpose of the study was to obtain preliminary comparative assessment of the safety and efficacy of Valchlor versus HyBryte following 12 weeks of treatment as measured in 3 to 5 prospectively identified index lesions for each patient. At the end of the 12-week treatment period, 60% of the HyBryte patients met the prospectively defined level of "Treatment Success" (≥50% improvement in their cumulative mCAILS score compared to Baseline) compared to only 20% of the Valchlor patients; although due to the small sample size the results do not achieve statistical significance. Of the remaining two HyBryte patients that did not achieve treatment success, both saw a substantial (≥30%) reduction in their mCAILS score. In contrast, in the Valchlor group, of the remaining 4 patients that did not achieve treatment success, one worsened and dropped from the study, one improved less than 30% and two improved ≥30%. The average cumulative improvement in mCAILS at 12 weeks was 52.5% in the HyBryte patients versus 34.7% in the Valchlor patients. HyBryte was well tolerated in all patients whereas 1 of the 5 patients receiving Valchlor had to be withdrawn from the trial because of a clinically significant allergic contact dermatitis from Valchlor.

When comparing the tolerance of the topical therapies (i.e., reactions where the drug was applied to the skin) in this trial, it is notable that all patients tolerated HyBryte well and had no adverse events "Related" to the therapy. In contrast, 60% of the Valchlor treated patients had at least one adverse event "Related" to the therapy. These adverse events in the Valchlor group included rashes, application site sensitivity, allergic contact dermatitis, and dermatitis, with one patient requiring steroid treatment, one requiring temporary interruption of Valchlor treatment, and one requiring permanent discontinuation of Valchlor. No such instances were reported in the HyBryte group.

About HyBryte

HyBryte (research name SGX301) is a novel, first-in-class, photodynamic therapy utilizing safe, visible light for activation. The active ingredient in HyBryte is synthetic hypericin, a potent photosensitizer that is topically applied to skin lesions that is taken up by the malignant T-cells, and then activated by safe, visible light approximately 24 hours later. The use of visible light in the red-yellow spectrum has the advantage of penetrating more deeply into the skin (much more so than ultraviolet light) and therefore potentially treating deeper skin disease and thicker plaques and lesions. This treatment approach avoids the risk of secondary malignancies (including melanoma) inherent with the frequently employed DNA-damaging drugs and other phototherapy that are dependent on ultraviolet exposure. Combined with photoactivation, hypericin has demonstrated significant anti-proliferative effects on activated normal human lymphoid cells and inhibited growth of malignant T-cells isolated from CTCL patients. In a published Phase 2 clinical study in CTCL, patients experienced a statistically significant (p=0.04) improvement with topical hypericin treatment whereas the placebo was ineffective. HyBryte has received orphan drug and fast track designations from the U.S. Food and Drug Administration (FDA), as well as orphan designation from the European Medicines Agency (EMA).

The published Phase 3 FLASH trial enrolled a total of 169 patients (166 evaluable) with Stage IA, IB or IIA CTCL. The trial consisted of three treatment cycles. Treatments were administered twice weekly for the first 6 weeks and treatment response was determined at the end of the 8th week of each cycle. In the first double-blind treatment cycle (Cycle 1), 116 patients received HyBryte treatment (0.25% synthetic hypericin) and 50 received placebo treatment of their index lesions. A total of 16% of the patients receiving HyBryte achieved at least a 50% reduction in their lesions (graded using a standard measurement of dermatologic lesions, the CAILS score) compared to only 4% of patients in the placebo group at 8 weeks (p=0.04) during the first treatment cycle (primary endpoint). HyBryte treatment in this cycle was safe and well tolerated.

In the second open-label treatment cycle (Cycle 2), all patients received HyBryte treatment of their index lesions. Evaluation of 155 patients in this cycle (110 receiving 12 weeks of HyBryte treatment and 45 receiving 6 weeks of placebo treatment followed by 6 weeks of HyBryte treatment), demonstrated that the response rate among the 12-week treatment group was 40% (p<0.0001 vs the placebo treatment rate in Cycle 1). Comparison of the 12-week and 6-week treatment groups also revealed a statistically significant improvement (p<0.0001) between the two groups, indicating that continued treatment results in better outcomes. HyBryte continued to be safe and well tolerated. Additional analyses also indicated that HyBryte is equally effective in treating both plaque (response 42%, p<0.0001 relative to placebo treatment in Cycle 1) and patch (response 37%, p=0.0009 relative to placebo treatment in Cycle 1) lesions of CTCL, a particularly relevant finding given the historical difficulty in treating plaque lesions in particular.

The third (optional) treatment cycle (Cycle 3) was focused on safety and all patients could elect to receive HyBryte treatment of all their lesions. Of note, 66% of patients elected to continue with this optional compassionate use / safety cycle of the study. Of the subset of patients that received HyBryte throughout all 3 cycles of treatment, 49% of them demonstrated a positive treatment response (p<0.0001 vs patients receiving placebo in Cycle 1). Moreover, in a subset of patients evaluated in this cycle, it was demonstrated that HyBryte is not systemically available, consistent with the general safety of this topical product observed to date. At the end of Cycle 3, HyBryte continued to be well tolerated despite extended and increased use of the product to treat multiple lesions.

Overall safety of HyBryte is a critical attribute of this treatment and was monitored throughout the three treatment cycles (Cycles 1, 2 and 3) and the 6-month follow-up period. HyBryte’s mechanism of action is not associated with DNA damage, making it a safer alternative than currently available therapies, all of which are associated with significant and sometimes fatal, side effects. Predominantly these include the risk of melanoma and other malignancies, as well as the risk of significant skin damage and premature skin aging. Currently available treatments are only approved in the context of previous treatment failure with other modalities and there is no approved front-line therapy available. Within this landscape, treatment of CTCL is strongly motivated by the safety risk of each product. HyBryte potentially represents the safest available efficacious treatment for CTCL. With very limited systemic absorption, a compound that is not mutagenic and a light source that is not carcinogenic, there is no evidence to date of any potential safety issues.

Following the first Phase 3 study of HyBryte for the treatment of CTCL, the FDA and the EMA indicated that they would require a second successful Phase 3 trial to support marketing approval. With agreement from the EMA on the key design components, the second, confirmatory study, called FLASH2, is expected to be initiated before the end of 2024. This study is a randomized, double-blind, placebo-controlled, multicenter study that will enroll approximately 80 subjects with early-stage CTCL. The FLASH2 study replicates the double-blind, placebo-controlled design used in the first successful Phase 3 FLASH study that consisted of three 6-week treatment cycles (18 weeks total), with the primary efficacy assessment occurring at the end of the initial 6-week double-blind, placebo-controlled treatment cycle (Cycle 1). However, this second study extends the double-blind, placebo-controlled assessment to 18 weeks of continuous treatment (no "between-Cycle" treatment breaks) with the primary endpoint assessment occurring at the end of the 18-week timepoint. In the first Phase 3 study, a treatment response of 49% (p<0.0001 vs patients receiving placebo in Cycle 1) was observed in patients completing 18 weeks (3 cycles) of therapy. In this second study, all important clinical study design components remain the same as in the first FLASH study, including the primary endpoint and key inclusion-exclusion criteria. The extended treatment for a continuous 18 weeks in a single cycle is expected to statistically demonstrate HyBryte’s increased effect over a more prolonged, "real world" treatment course. Given the extensive engagement with the CTCL community, the esteemed Medical Advisory Board and the previous trial experience with this disease, accelerated enrollment in support of this study is anticipated, including the potential to enroll previously identified and treated HyBryte patients from the FLASH study. Discussions with the FDA on an appropriate study design remain ongoing. While collaborative, the agency has expressed a preference for a longer duration comparative study over a placebo-controlled trial. Given the shorter time to potential commercial revenue and the similar trial design to the first FLASH study afforded by the EMA accepted protocol, this study will be initiated. At the same time, discussions with the FDA will continue on potential modifications to the development path to adequately address their feedback.

In addition, the FDA awarded an Orphan Products Development grant to support the evaluation of HyBryte for expanded treatment in patients with early-stage CTCL, including in the home use setting. The grant, totaling $2.6 million over 4 years, was awarded to the University of Pennsylvania that was a leading enroller in the Phase 3 FLASH study.

About Cutaneous T-Cell Lymphoma (CTCL)

CTCL is a class of non-Hodgkin’s lymphoma (NHL), a type of cancer of the white blood cells that are an integral part of the immune system. Unlike most NHLs which generally involve B-cell lymphocytes (involved in producing antibodies), CTCL is caused by an expansion of malignant T-cell lymphocytes (involved in cell-mediated immunity) normally programmed to migrate to the skin. These malignant cells migrate to the skin where they form various lesions, typically beginning as patches and may progress to raised plaques and tumors. Mortality is related to the stage of CTCL, with median survival generally ranging from about 12 years in the early stages to only 2.5 years when the disease has advanced. There is currently no cure for CTCL. Typically, CTCL lesions are treated and regress but usually return either in the same part of the body or in new areas.

CTCL constitutes a rare group of NHLs, occurring in about 4% of the more than 1.7 million individuals living with the disease in the United States and Europe (European Union and United Kingdom). It is estimated, based upon review of historic published studies and reports and an interpolation of data on the incidence of CTCL that it affects approximately 31,000 individuals in the U.S. (based on SEER data, with approximately 3,200 new cases seen annually) and approximately 38,000 individuals in Europe (based on ECIS prevalence estimates, with approximately 3,800 new cases annually).

Propanc Biopharma Receives Certificate of Grant for “Proenzymes Composition” Patent from Japanese Patent Office

On June 25, 2024 Propanc Biopharma, Inc. (OTC Pink: PPCB) ("Propanc" or the "Company"), a biopharmaceutical company developing novel cancer treatments for patients suffering from recurring and metastatic cancer, reported that a Certificate of Grant for the Company’s "proenzymes composition" patent was received from the Japanese Patent Office (Press release, Propanc, JUN 25, 2024, View Source [SID1234644532]). The patent covers dosing regimen claims for the company’s lead asset, PRP, which is advancing to clinical development. This is the fourth Japanese patent either allowed or granted in this important jurisdiction. Also, a certificate of Grant was also received from the Intellectual Property (IP) Corporation of Malaysia for a "cancer treatment" using therapeutically effective amounts of two proenzymes, trypsinogen and chymotrypsinogen. This is the third granted patent in Malaysia. Currently, the Company’s intellectual property portfolio consists of 93 patents filed in major global jurisdictions relating to the use of PRP against solid tumors.

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The proenzymes composition patent is an important part of the IP portfolio as it covers possible future clinical dosage ranges for PRP as the Company advances into early-stage clinical development. Japan is considered an important pharmaceutical market, which is estimated to reach $46.36 Billion revenue in 2024, according to www.statista.com. The largest sector is oncology drugs, projected to have a market volume of $8.95 Billion in 2024, which overall, is experiencing a surge in demand for innovative drugs driven by an aging population and increasing prevalence of chronic (long term) diseases (www.statista.com).

The cancer treatment patent describes a method to target and eradicate cancer stem cells (CSCs) using PRP which minimizes the progression of cancer in a patient. Currently, progression, or spread of cancer, called metastatic cancer, is the main cause of patient death for sufferers. Malaysia is one of the largest countries in South East Asia. In 2024, the projected revenue in the pharmaceutical market in Southeast Asia is expected to reach $13.40 Billion. The largest market within this market is oncology drugs, which is projected to have a market volume of $2.40 Billion this year, according to www.evaluate.com.

"We are building an extensive and mature intellectual property portfolio around the use of proenzymes as a novel treatment for advanced solid tumors," said Mr. James Nathanielsz, Propanc’s Chief Executive Officer. "We plan to grow our intellectual property portfolio by filing additional provisional patent applications, as we progress PRP into the clinic. Intellectual property protection is a cornerstone of our drug development strategy, as we seek to protect the tremendous value in our promising lead product candidate, PRP. We look forward to executing our plans to advance PRP into a Phase 1b clinical study in advanced cancer patients, as a novel therapy for the treatment and prevention of metastatic cancer from solid tumors by targeting and eradicating CSCs, but without the side effects normally associated with standard treatment approaches."

About PRP:

PRP is a mixture of two proenzymes, trypsinogen and chymotrypsinogen from bovine pancreas, administered by intravenous injection. A synergistic ratio of 1:6 inhibits growth of most tumor cells. Examples include pancreatic, ovarian, kidney, breast, brain, prostate, colorectal, lung, liver, uterine, and skin cancers. Orphan Drug Designation status of PRP has been granted from the US Food and Drug Administration (FDA) for treatment of pancreatic cancer.

To view the Company’s "Mechanism of Action" video on the Company’s lead asset, PRP, please click on the following link: View Source

Monopar Announces MNPR-101-RIT Abstract Accepted as a Top-Rated Oral Presentation at EANM’24

On June 25, 2024 Monopar Therapeutics Inc. (Nasdaq: MNPR), a clinical-stage radiopharma company focused on developing innovative treatments for cancer patients, reported that its abstract titled "Evaluation of Anti-uPAR Antibody as a Radiopharmaceutical for Imaging and Treatment of Solid Tumors" has been accepted as a "Top-Rated Oral Presentation" within the Scientific Program of the European Association of Nuclear Medicine (EANM) 2024 Annual Congress to be held on October 19-23, 2024 in Hamburg, Germany (Press release, Monopar Therapeutics, JUN 25, 2024, View Source [SID1234644531]).

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Monopar’s abstract details its MNPR-101-RIT, a novel first-in-class radio-immuno-therapeutic program that targets cancers expressing the urokinase plasminogen activator receptor (uPAR), including triple-negative breast, colorectal, and pancreatic cancers. The Company’s preclinical data demonstrate compelling and durable anti-tumor benefits with MNPR-101 conjugated to therapeutic radioisotopes, including lutetium-177 (Lu-177) and actinium-225 (Ac-225).

"We are honored by the recognition of our MNPR-101-RIT abstract at EANM’24," said Chandler Robinson, MD, CEO of Monopar Therapeutics. "This selection underscores the potential of our uPAR-targeted therapy and the interest around uPAR as a potential new target for radiopharma treatment."

Monopar recently initiated its MNPR-101-Zr first-in-human Phase 1 imaging and dosimetry clinical trial in advanced cancer patients. Further information about this trial is available at www.ClinicalTrials.gov under study identifier NCT06337084.